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I know I've posted a topic about this, but I have made a lot of progress since then and no longer have deadlock. However I still can't get the correct sorted result :'(

I've literally spent more then 50 hours on this problem..and this is no longer for homework but just for the sake of getting something for all this time I've spent.

Ok so, in my program. process 0 generates n elements, keeps nlocal of them for itself and sends nlocal of them to the other processes. All processes run the algorithm on the nlocal elements and send the result back to process 0 (obviously process 0 doesn't have to send results back). Process 0 then prints out the results for itself and each of the other processes.

That's how it's supposed to work at least, but it doesn't seem to be sorting right. So i think i'm making a stupid mistake.

Here is my current code http://pastie.org/3768211

#include <stdio.h>
#include <stdlib.h>
#include <mpi.h>

/****************************************************************/
/* This implements a compare-split operation.           */
/* nlocal is the number of elements stored here         */
/* elmnts is my local copy of the array             */
/* relmnts is the copy I've received                */
/* wspace is a working array                    */
/* keepsmall tells local processor whether it takes the smaller */
/* or larger half.                      */
/****************************************************************/
void CompareSplit(int nlocal, int *elmnts, int *relmnts, int *wspace,
             int keepsmall) {
  int i, j, k;

  for (i = 0; i < nlocal; i++)
    wspace[i] = elmnts[i];  /* copy elts into wspace    */

  /**************************************************************/
  /* copying the smaller values into my "elmnts" array.     */
  /**************************************************************/
  if (keepsmall) {
    for (i = j = k = 0; k < nlocal; k++) {
      if (j == nlocal || (i < nlocal && wspace[i] < relmnts[j]))
        elmnts[k] = wspace[i++];
      else
        elmnts[k] = relmnts[j++];
    }
  }
  /**************************************************************/
  /* else - copying the larger values.              */
  /**************************************************************/
  else {
    for (i = k = nlocal - 1, j = nlocal - 1; k >= 0; k--) {
      if (j == 0 || (i >= 0 && wspace[i] >= relmnts[j]))
        elmnts[k] = wspace[i--];
      else
        elmnts[k] = relmnts[j--];
    }
  }
}

/****************************************************************/
/* This is the comparison function for the call to qsort.   */
/****************************************************************/
int IncOrder(const void *e1, const void *e2 ) {
  return (*((int *)e1) - *((int *)e2));
}

main(int argc, char* argv[]) {
  int n;        /* total number of elts to be sorted    */
  unsigned int seed;    /* random number seed           */
  int npes, myrank; /* total processes, self ID     */
  int nlocal;       /* How much data on local PE        */
  int *elmnts;      /* array storing local elements     */
  int *relmnts;     /* array storing received elements  */
  int oddrank;      /* my rank during odd-phase comm.   */
  int evenrank;     /* my rank during even-phase comm.  */
  int *wspace;      /* working space during compare-split   */
  int i, j;
  MPI_Status status;

  MPI_Comm comm = MPI_COMM_WORLD;

  int tag = MPI_ANY_TAG;

  MPI_Init(&argc, &argv);
  MPI_Comm_size(MPI_COMM_WORLD, &npes);
  MPI_Comm_rank(MPI_COMM_WORLD, &myrank);

  seed = atoi(argv[1]);     /* Random number seed.      */
  n = atoi(argv[2]);        /* How many elts to produce.    */

  nlocal = n/npes;      /* How many I get.      */

  elmnts = malloc(nlocal*npes*sizeof(int));
  relmnts = malloc(nlocal*sizeof(int));
  wspace = malloc(nlocal*sizeof(int));


  if (myrank == 0) {
      printf("- there are %i total processes\n" ,npes);

    // Process 0
    // Generate all the random numbers
      seed = seed * (myrank+1);
      srand(seed);

      elmnts[0] = 7;
      elmnts[1] = 6;
      elmnts[2] = 3;
      elmnts[3] = 10;
      elmnts[4] = 1;
      elmnts[5] = 2;

      printf("- p0 generates %i numbers: ", n);
      for (i = 0; i < n; i++)
      {
          // Print intial elements
          printf("%i ", elmnts[i]);
          }
      printf("\n");

      printf("- p0 sends ");
      for (i = 1; i < npes; i++) {
        for (j = i*nlocal; j < (i*nlocal)+nlocal; j++) {
            printf("%i,", elmnts[j]);
        }
        printf(" to p%i\n", i);
      }

      for (i = 1; i < npes; i++) {
            // Send the random numbers nlocal at a time to all other processes
            MPI_Send(&elmnts[i*nlocal], nlocal, MPI_INT, i, myrank, comm);
      }

      // Run the algorithm for itself
          evenrank = myrank + 1;
      oddrank = MPI_PROC_NULL;

    qsort(elmnts, nlocal, sizeof(int), IncOrder);
    printf("- p0 sorts its own elements, giving ");
    for ( i = 0; i < nlocal; i++) {
        printf("%i, ", elmnts[i]);
    }
    printf("\n");

      for (i = 1; i < npes; i++) {
        if (i % 2 == 1) // odd phase
          MPI_Sendrecv(elmnts, nlocal, MPI_INT, oddrank, 1, relmnts,
                       nlocal, MPI_INT, oddrank, 1, MPI_COMM_WORLD, &status);
        else
          MPI_Sendrecv(elmnts, nlocal, MPI_INT, evenrank, 1, relmnts,
                       nlocal, MPI_INT, evenrank, 1, MPI_COMM_WORLD, &status);

        CompareSplit(nlocal, elmnts, relmnts, wspace,
                     myrank < status.MPI_SOURCE);
      }

      // Print my sublist
      for (i = 0; i < nlocal; i++) 
      {
            printf("processor 0 element: %i\n", elmnts[i]);
      }

      for (i = 1; i < npes; i++)
      {
        // Receive all other processes sublists
        MPI_Recv(relmnts, nlocal, MPI_INT, i, tag, comm, &status);

        for (j = 0; j < nlocal; j++)
        //for (j = i*nlocal; j < (i*nlocal)+nlocal; j++)
        {
            // Print all other processes sublist
            //printf("p0 Received element: %i from p%i\n", elmnts[j], i);
            printf("- p0 receives %i , from p%i\n", relmnts[j], i);
        }
      }

  }
  else {

    // The rest of the processes
    printf("nlocal %i\n", nlocal);
    printf("n %i\n", n);
    printf("npes %i\n", npes);

    // Receive nlocal randomly generated elements from process 0
    MPI_Recv(relmnts, nlocal, MPI_INT, 0, tag, comm, &status); 

    // Print the received elements
    printf("- p%i receives ", myrank);
    for ( i = 0; i < n/npes; i++)
    {
        //printf("p%i receives elmnts[%i]: %i from p0\n", myrank, i, elmnts[i]);
        printf("%i, ", relmnts[i]);
    }
    printf("\n");

    qsort(relmnts, nlocal, sizeof(int), IncOrder); // does it matter where we sort at?

    printf("- p%i sorts, making ", myrank);
    for ( i = 0; i < n/npes; i++)
    {
        //printf("p%i sorted elmnts[%i]: %i\n", myrank, i, elmnts[i]);
        printf("%i, ", relmnts[i]);
    }

      /**************************************************************/
      /* Calculate the locations of my neighbors in advance.    */
      /**************************************************************/
      if (myrank % 2 == 0) {
        oddrank = myrank - 1;
        evenrank = myrank + 1;
      }
      else {
        oddrank = myrank + 1;
        evenrank = myrank - 1;
      }


      /**************************************************************/
      /* Set ranks of processors at end of linear array - boundary  */
      /* conditions.                        */
      /**************************************************************/

      if (oddrank == -1 || oddrank == npes)
        oddrank = MPI_PROC_NULL;
      if (evenrank == -1 || evenrank == npes)
        evenrank = MPI_PROC_NULL;

        if (i % 2 == 1) // odd phase
          MPI_Sendrecv(elmnts, nlocal, MPI_INT, oddrank, 1, relmnts,
                       nlocal, MPI_INT, oddrank, 1, MPI_COMM_WORLD, &status);
        else
          MPI_Sendrecv(elmnts, nlocal, MPI_INT, evenrank, 1, relmnts,
                       nlocal, MPI_INT, evenrank, 1, MPI_COMM_WORLD, &status);

        CompareSplit(nlocal, elmnts, relmnts, wspace,
                     myrank < status.MPI_SOURCE);

    printf("p%i sends ", myrank);

    for ( i = 0; i < n/npes; i++)
    //for ( i = 0; i < sizeof(elmnts)/sizeof(int); i++)
    {
        printf("%i, ", relmnts[i]);
    }
    printf("\n");

    // Send results back to process 0
    MPI_Send(relmnts, nlocal, MPI_INT, 0, myrank, comm);
  }

  free(elmnts);
  free(relmnts);
  free(wspace);
  MPI_Finalize();
}

And here is my output http://pastie.org/3768212

nlocal 3
n 6
npes 2
- p1 receives 10, 1, 2,
- p1 sorts, making 1, 2, 10, p1 sends 1, 2, 10,
- there are 2 total processes
- p0 generates 6 numbers: 7 6 3 10 1 2
- p0 sends 10,1,2, to p1
- p0 sorts its own elements, giving 3, 6, 7,
processor 0 element: 7
processor 0 element: 11772296
processor 0 element: 158130056
- p0 receives 1 , from p1
- p0 receives 2 , from p1
- p0 receives 10 , from p1

As you can see the order of events seems wrong. For example, p1 seems to receive its elements from p0 before they are even sent.

Also, the thing that is giving me the biggest headache is the contents of elmnts after p0 runs the algorithm on itself. i.e. lines 10-12 in the output. For some reason, I'm getting memory addresses in there and no the correct elements.

I know that the CompareSplit function works fine because I found that section of the code here CompareSplit Odd Even Sort Code and tested it.

I would appreciate any help. I really feel like I've wasted a huge chunk of time if I cannot solve this.

Thank you.

share|improve this question
1  
Please include the relevant parts of your code inline here, and show your efforts at debugging this yourself. As it is, your question becomes totally useless as soon as those links die, and it too localized to start with. –  Mat Apr 11 '12 at 16:22
    
Wow, well done on spending 50hrs on getting this going. Hope I/ we/ someone can help you out! RE: "lines 10-12 in the output. For some reason, I'm getting memory addresses in there and no the correct elements." this would typically mean an illegal instruction has occured and that you've started overwriting memory allocated to your program itself. This is typically because you've not initialised pointers to 0. Caveat: my C's a bit rusty. –  wmorrison365 Apr 11 '12 at 16:24
2  
Also, regarding out of order logging, that may not be a concern. It could be that the computation is correctly synchronised between the threads but the logging is occuring out of order (due to the threads/ processes switching). –  wmorrison365 Apr 11 '12 at 16:26
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